DE3419954A1 - Supply road bunker - Google Patents

Abstract

The bunker storage of debris is necessary to carry out continuous stowing using an air stowing machine. In contrast to stationary bunkers, the invention makes provision for a roadway bunker for the storage and removal from storage of debris, so that buffer spaces can be created regardless of the activity of the blowing machine, which roadway bunker consists in known fashion of bunker side walls (3) provided on both sides of the conveying means (2), is designed to travel underneath and connected to a waste feeding belt (4) and is provided with a funnel-shaped, adjustable transfer device (8). <IMAGE>

Description

Offset section bunker The invention relates to a section bunker for the final and unloading of offset mountains, in connection with an it transfer belt the blow molding machine can be connected downstream.

For the transport of backfill mountains from day shafts or from the center The stationary bunkers that are located right up to the on-site blow molding machines are installed in the Coal mining today mainly uses belt conveyors. With very long and Multiple kinked transport routes are accordingly a larger number of consecutive ones switchable conveyor belts necessary.

When the moving work in the face is interrupted and the blow-molding machine consequently must be shut down, all recovery conveyor belts must also be turned off because, according to the current state of the offset technology, there are buffer spaces in front of the blow offset machines are not provided.

Since the recovery conveyor belts after restarting the blow molding machine can only be started one after the other, significant interruptions occur in the Recovery of the packing operations, which results in a poor degree of utilization of the blow molding machines has the consequence. The degree of utilization of the blow molding machines is, on the other hand, by Interruptions in production operations are considerably reduced.

In contrast, the invention has set itself the task of avoiding it to create a buffer option on site of the above-mentioned disruptive factors, which the efficiency of the blow molding machines significantly improved.

This object is achieved according to the invention in that the known and consisting of bunker side walls provided on both sides of a conveyor Bunkers arranged below a recovery conveyor belt in connection with the recovery conveyor belt designed to be movable and provided with a funnel-shaped adjustable transfer is.

Taking into account the usual cross-sections of the route, this is guaranteed Such a section bunker ensures continuity when the blow stowing machine is at a standstill the conveying process through the corresponding fin storage of the offset material flow and in the event of an interruption in conveyance due to the removal of the backfill material, the Continuity in the blow molding operation.

The section bunker can have a fixed bunker floor, whereby the bunker contents are moved back and forth by a chain conveyor will. On the other hand is a version of a bunker with a movable one Soil conceivable in which the stored or withdrawn goods through a Steel link belt or a belt conveyor is transported.

A particular advantage through the use of a section bunker can be seen in the control of the storage and retrieval process, which depends on the operating pressure prevailing in the blow molding machine can be regulated. On the the operating pressure prevailing in the blow-off line is the feed quantity at the Blow stowing machine regulated. The one to be released depending on the operating pressure The amount of backfill is determined accordingly by the transfer upstream of the bunker regulated, whereby, depending on requirements, the transfer is initiated via the recovery conveyor belt Versatzgutstrom a certain amount of withdrawal from the bunker can be added can. When the offset blow molding machine is at a standstill and the operating pressure is set is about the pivotability of the transfer of the storage process in the bunker initiated.

In order to close the bunker with the optimal filling cross-section in this phase is acted upon in the recovery conveyor belt arranged above the bunker the incoming Versatzgutstrom measuring device provided via which the Speed of the conveyor in the bunker floor is regulated.

A particular advantage of the invention can be seen in the fact that the bunker supported on runners, e.g. movable via pulling and / or pushing device, d. H. the transport of the Rlasversatzmaschine is adaptable.

The use of such a mobile section bunker increases in more economical The throughput capacity of a plasma packer is independent of any delivery failures and helps to nearly optimize the offset operation.

Fin embodiment of the invention is shown in the drawings and is explained in more detail below. They show: FIG. 1 a schematic representation of a mobile section bunker in a section without switching on the bunker in the operational sequence, ß t. 2 shows the embodiment shown in FIG. 1 with the storage process into the bunker when the blow molding machine is at a standstill.

Per bunker 1 shown in line 5 in FIGS. 1 and 2 known Rauweise consists essentially of a conveyor arranged in the bunker floor 2 and the corresponding bunker side walls 3. Above bunker 1 is an in Connection with the puncher 1 arranged movably designed recovery conveyor belt, About which the mountain supply is provided on the delivery belt 6, which the Blowing machine 7 is connected upstream.

Tn Fig. 1 is a schematic of the operating state in the type reproduced that the bulk material flow 10 huber the Pergezufuhrband 4 and the dem Bunker 1 upstream transfer 8 is conveyed to the conveyor belt 6. The handover 8, like the bunker 1, is designed to be movable with it and can be in the area the rin- and discharge end of the bunker 1 be hinged to this. The handover 8 is designed to be pivotable in the vertical plane, the pivoting movement for example feasible via a cylinder 9 that can be acted upon hydraulically or with compressed air is.

In FIG. 2, when the blow molding machine 7 is at a standstill, the fin storage process is taking place shown in the bunker 1. In the recovery conveyor belt 4 is a measuring device 11, For example, a Pandwaage built in, which measures the flow of bulk material and thus the speed of the conveyor running backwards in the Runker 1 for fin storage 2 determined. This control is necessary in order to have the hopper 1 with the optimal filling cross-section to save one. The mobility of the bunker 1 is, for example, one Support of the bunker 1 on runners ensured, wall1-wise pulling and / or Thrust devices for the required maneuverability can be selected. m the throughput capacity To increase the blow molding machine 7, it is advantageous to have an automatic control of the loading process of the transfer belt 7. About the measurable operating pressure in the Plasversatzleitung can thus the task of the level of the bulk material flow 10 are regulated to the extent that in the case of an insufficient flow of bulk material 10 from the recovery conveyor belt 4 also save the required amount by off the hopper 1 can be added to the feed belt 6.

1 bunker 2 conveyor 3 bunker side wall 4 recovery conveyor belt 5 track 6 Transfer belt 7 Blow staggering machine s Transfer 9 Cylinder 10 Bulk material flow 11 Measuring device - Leersejte -

Claims (6)

Offset section bunker Claims: 1. Section bunker for and storing off offset mountains in connection with a transfer belt of the Plasma displacement machine can be connected downstream, characterized in that the known consisting of bunker side walls (3) provided on both sides of a conveyor (2) and bunkers (1) arranged below a recovery conveyor belt (4) in connection with the recovery conveyor belt (4) designed to be movable and with a funnel-shaped, adjustable Transfer (8) is provided. 2. Line bunker according to claim 1, characterized in that the Transfer (8) as an incoming flow (10) receiving, in vertical Plane pivotable funnel is formed. 3. Line bunker according to claim 1, characterized in that that the transfer (8) is articulated pivotably in the vertical plane at the bunker entrance and exit is. 4. Line bunker according to claim 1, characterized in that for Implementation of the pivoting movement of the transfer (8), for example hydraulically actable cylinder (9) is provided. 5. Line bunker according to claim 1, characterized in that the Storage and retrieval process in the bunker (1) depending on that in the blow molding machine (7) the prevailing operating pressure can be regulated. 6. Line bunker according to claim 1, characterized in that the Bunker (1), supported on runners, can be moved by pulling and / or pushing devices is trained.